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Evacuation elevators in an underground metro station : A Virtual Reality evacuation experiment

Mossberg, Axel LU ; Nilsson, Daniel and Wahlqvist, Jonathan LU (2021) In Fire Safety Journal 120.
Abstract

The number of underground metro stations around the world is steadily increasing and deep stations are becoming more common. Evacuation elevators can be a way to mitigate many of the evacuation problems of deep stations, e.g., fatigue. However, the elevators need to be used by evacuees to be effective. In order to study the influence of evacuation measures on elevator usage, experiments were performed in a Virtual Reality (VR) model of a deep underground metro station. Four scenarios with different evacuation measures were studied and compared. These scenarios consisted of a base-line scenario, a scenario with enhanced guidance systems e.g., a more informative voice alarm message and flashing green lights to guide people, a scenario... (More)

The number of underground metro stations around the world is steadily increasing and deep stations are becoming more common. Evacuation elevators can be a way to mitigate many of the evacuation problems of deep stations, e.g., fatigue. However, the elevators need to be used by evacuees to be effective. In order to study the influence of evacuation measures on elevator usage, experiments were performed in a Virtual Reality (VR) model of a deep underground metro station. Four scenarios with different evacuation measures were studied and compared. These scenarios consisted of a base-line scenario, a scenario with enhanced guidance systems e.g., a more informative voice alarm message and flashing green lights to guide people, a scenario with smartphone guidance and a scenario with timers showing a countdown timer above the elevators. The results show that the use of evacuation elevators is affected by the evacuation system design and that a more informative guidance system can increase evacuation elevator usage. Also, smartphone guidance was shown to increase the elevator usage, but results suggest people stop looking at the smartphone after initiating evacuation. The study also suggests that accepted waiting times for elevators can potentially be increased if countdown timers are installed above elevators.

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author
; and
organization
publishing date
type
Contribution to journal
publication status
published
subject
keywords
Accepted waiting time, Evacuation elevators, Exit choice, Head mounted display (HMD), Human behaviour, Underground metro station, Virtual reality (VR) experiments
in
Fire Safety Journal
volume
120
article number
103091
publisher
Elsevier
external identifiers
  • scopus:85084755937
ISSN
0379-7112
DOI
10.1016/j.firesaf.2020.103091
language
English
LU publication?
yes
id
1fc72420-f869-4a8e-81f5-e138e5230af3
date added to LUP
2020-06-15 10:26:17
date last changed
2022-05-12 03:10:33
@article{1fc72420-f869-4a8e-81f5-e138e5230af3,
  abstract     = {{<p>The number of underground metro stations around the world is steadily increasing and deep stations are becoming more common. Evacuation elevators can be a way to mitigate many of the evacuation problems of deep stations, e.g., fatigue. However, the elevators need to be used by evacuees to be effective. In order to study the influence of evacuation measures on elevator usage, experiments were performed in a Virtual Reality (VR) model of a deep underground metro station. Four scenarios with different evacuation measures were studied and compared. These scenarios consisted of a base-line scenario, a scenario with enhanced guidance systems e.g., a more informative voice alarm message and flashing green lights to guide people, a scenario with smartphone guidance and a scenario with timers showing a countdown timer above the elevators. The results show that the use of evacuation elevators is affected by the evacuation system design and that a more informative guidance system can increase evacuation elevator usage. Also, smartphone guidance was shown to increase the elevator usage, but results suggest people stop looking at the smartphone after initiating evacuation. The study also suggests that accepted waiting times for elevators can potentially be increased if countdown timers are installed above elevators.</p>}},
  author       = {{Mossberg, Axel and Nilsson, Daniel and Wahlqvist, Jonathan}},
  issn         = {{0379-7112}},
  keywords     = {{Accepted waiting time; Evacuation elevators; Exit choice; Head mounted display (HMD); Human behaviour; Underground metro station; Virtual reality (VR) experiments}},
  language     = {{eng}},
  month        = {{03}},
  publisher    = {{Elsevier}},
  series       = {{Fire Safety Journal}},
  title        = {{Evacuation elevators in an underground metro station : A Virtual Reality evacuation experiment}},
  url          = {{http://dx.doi.org/10.1016/j.firesaf.2020.103091}},
  doi          = {{10.1016/j.firesaf.2020.103091}},
  volume       = {{120}},
  year         = {{2021}},
}